• Title of article

    Effect of weightlessness on colloidal particle transport and segregation in self-organising microtubule preparations Original Research Article

  • Author/Authors

    James Tabony، نويسنده , , Nathalie Rigotti، نويسنده , , Nicolas Glade، نويسنده , , Sandra Cortés، نويسنده ,

  • Issue Information
    روزنامه با شماره پیاپی سال 2007
  • Pages
    9
  • From page
    172
  • To page
    180
  • Abstract
    Weightlessness is known to effect cellular functions by as yet undetermined processes. Many experiments indicate a role of the cytoskeleton and microtubules. Under appropriate conditions in vitro microtubule preparations behave as a complex system that self-organises by a combination of reaction and diffusion. This process also results in the collective transport and organisation of any colloidal particles present. In large centimetre-sized samples, self-organisation does not occur when samples are exposed to a brief early period of weightlessness. Here, we report both space-flight and ground-based (clinorotation) experiments on the effect of weightlessness on the transport and segregation of colloidal particles and chromosomes. In centimetre-sized containers, both methods show that a brief initial period of weightlessness strongly inhibits particle transport. In miniature cell-sized containers under normal gravity conditions, the particle transport that self-organisation causes results in their accumulation into segregated regions of high and low particle density. The gravity dependence of this behaviour is strongly shape dependent. In square wells, neither self-organisation nor particle transport and segregation occur under conditions of weightlessness. On the contrary, in rectangular canals, both phenomena are largely unaffected by weightlessness. These observations suggest, depending on factors such as cell and embryo shape, that major biological functions associated with microtubule driven particle transport and organisation might be strongly perturbed by weightlessness.
  • Keywords
    Exocytosis , Microelectrodes , TIRFM , Chromaffin cells , ITO , Electrochemistry
  • Journal title
    Biophysical Chemistry
  • Serial Year
    2007
  • Journal title
    Biophysical Chemistry
  • Record number

    1119871